Carbon Trends (Oct 2021)
Functionalization of petroleum pitch-based porous carbon foams and their application in radionuclides adsorption/decontamination
Abstract
A porous carbon foam (P-CF) with high porosity and large pore volume is developed to offer an efficient scaffold for radionuclides adsorption/decontamination. The three-dimensional (3D) porous structure can be easily formed by carbonization of petroleum pitch. During the heat treatment process, the volatile components from the petroleum pitch create highly interconnected pores without any templates, blowing and foaming agents. In addition, Prussian Blue (PB) nanoparticles are introduced onto the surface of the P-CF by a simple hydrothermal method. By combining the enhanced binding affinity to radionuclides with the increased porosity, the synthesized PB@P-CF exhibits the enhanced adsorption capacity for the Cesium ion (133Cs). This study provides a feasible way to utilize residual oil for preparing functionalized porous carbon-based adsorbents for the removal of radionuclides from aqueous solutions. The superior adsorption behaviors of the PB@P-CF make them promising candidates for radioactive materials adsorption/decontamination.